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Name: Ananda Hota Affiliation: UM-DAE Centre for Excellence in Basic Sciences Conference ID: ASI2021_310 Title : The Sharpest Ultraviolet view of the star formation in an extreme environment of the nearest Jellyfish Galaxy IC 3418 Authors and Co-Authors : Ananda Hota (UM-DAE CEBS & RAD@home, India), Ashish Devaraj (IIA), Ananta C. Pradhan (NIT-Rourkela), C S Stalin (IIA), Koshy George (Ludwig-Maximilians-Universität, Germany), Abhisek Mohapatra (NIT-Rourkela), Soo-Chang Rey (Chungnam National University, Korea), Youichi Ohyama (ASIAA, Taiwan), Sravani Vaddi (Arecibo Observatory, USA), Renuka Pechetti (Liverpool John Moores University, UK), Ramya Sethuram (IIA), Jessy Jose (IISER-Tirupati), Jayashree Roy(IUCAA), Chiranjib Konar (Amity University). Abstract Type : Poster Abstract Category : Extragalactic Astronomy Abstract : We present the far ultraviolet (UV) imaging of the nearest Jellyfish or Fireball galaxy IC3418/VCC 1217, in the Virgo cluster of galaxies, using Ultraviolet Imaging Telescope (UVIT) onboard the ASTROSAT satellite. The young star formation observed here in the 17 kpc long turbulent wake of IC3418, due to ram pressure stripping of cold gas surrounded by hot intra-cluster medium, is a unique laboratory that is unavailable in the Milkyway. We have tried to resolve star forming clumps, seen compact to GALEX UV images, using better resolution available with the UVIT and incorporated UV-optical images from Hubble Space Telescope archive. For the first time, we resolve the compact star forming clumps (fireballs) into sub-clumps and subsequently into a possibly dozen isolated stars. We speculate that many of them could be blue supergiant stars which are cousins of SDSS J122952.66+112227.8, the farthest star (~17 Mpc) we had found earlier surrounding one of these compact clumps. We found evidence of star formation rate (3 - 6 x 10-4 M☉ yr-1) in these fireballs, estimated from UVIT flux densities, to be increasing with the distance from the parent galaxy. We propose a new dynamical model in which the stripped gas may be developing vortex street where the vortices grow to compact star forming clumps due to self-gravity. Gravity winning over turbulent force with time or length along the trail can explain the puzzling trend of higher star formation rate and bluer/younger stars observed in fireballs farther away from the parent galaxy. |